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+/*=========================================================================
+* jdidct-armv7.s
+*
+* Copyright (c) 2010, Code Aurora Forum. All rights reserved.
+*
+* Redistribution and use in source and binary forms, with or without
+* modification, are permitted provided that the following conditions are
+* met:
+* * Redistributions of source code must retain the above copyright
+* notice, this list of conditions and the following disclaimer.
+* * Redistributions in binary form must reproduce the above
+* copyright notice, this list of conditions and the following
+* disclaimer in the documentation and/or other materials provided
+* with the distribution.
+* * Neither the name of Code Aurora Forum, Inc. nor the names of its
+* contributors may be used to endorse or promote products derived
+* from this software without specific prior written permission.
+*
+* THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
+* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
+* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
+* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
+* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
+* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
+* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
+* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
+* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
+* OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
+* IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+*==========================================================================
+
+*==========================================================================
+* FUNCTION LIST
+*--------------------------------------------------------------------------
+* - idct_1x1_venum
+* - idct_2x2_venum
+* - idct_4x4_venum
+* - idct_8x8_venum
+*
+*==========================================================================
+*/
+
+@==========================================================================
+@ MACRO DEFINITION
+@==========================================================================
+ .macro Transpose8x8
+ @==================================================================
+ @ Transpose an 8 x 8 x 16 bit matrix in place
+ @ Input: q8 to q15
+ @ Output: q8 to q15
+ @ Registers used: q8 to q15
+ @ Assumptions: 8 x 8 x 16 bit data
+ @==================================================================
+
+ vswp d17, d24 @q8, q12
+ vswp d23, d30 @q11, q15
+ vswp d21, d28 @q10, q14
+ vswp d19, d26 @q9, q13
+
+ vtrn.32 q8, q10
+ vtrn.32 q9, q11
+ vtrn.32 q12, q14
+ vtrn.32 q13, q15
+
+ vtrn.16 q8, q9
+ vtrn.16 q10, q11
+ vtrn.16 q12, q13
+ vtrn.16 q14, q15
+ .endm
+
+ .macro IDCT1D
+ @==================================================================
+ @ One dimensional 64 element inverse DCT
+ @ Input: q8 to q15 loaded with data
+ @ q0 loaded with constants
+ @ Output: q8 to q15
+ @ Registers used: q0, q4 to q15
+ @ Assumptions: 16 bit data, first elements in least significant
+ @ halfwords
+ @==================================================================
+
+ @1st stage
+ vqrdmulh.s16 q4, q15, d0[2] @q4 = a1*vx7
+ vqrdmulh.s16 q5, q9, d0[2] @q5 = a1*vx1
+ vqrdmulh.s16 q6, q13, d0[3] @q6 = a2*vx5
+ vqrdmulh.s16 q7, q11, d1[1] @q7 = ma2*vx3
+ vqrdmulh.s16 q2, q14, d0[1] @q6 = a0*vx6
+ vqrdmulh.s16 q3, q10, d0[1] @q7 = a0*vx2
+ vqadd.s16 q9, q4, q9 @q9 = t1 = a1*vx7 + vx1
+ vqsub.s16 q5, q5, q15 @q5 = t8 = a1*vx1 - vx7
+ vqadd.s16 q15, q6, q11 @q15 = t7 = a2*vx5 + vx3
+ vqadd.s16 q11, q7, q13 @q11 = t3 = ma2*vx3 + vx5
+
+ @2nd stage
+ vqadd.s16 q13, q8, q12 @q13 = t5 = vx0 + vx4
+ vqsub.s16 q8, q8, q12 @q8 = t0 = vx0 - vx4
+ vqadd.s16 q10, q2, q10 @q10 = t2 = a0*vx6 + vx2
+ vqsub.s16 q12, q3, q14 @q12 = t4 = a0*vx2 - vx6
+ vqadd.s16 q14, q5, q11 @q14 = t6 = t8 + t3
+ vqsub.s16 q11, q5, q11 @q11 = t3 = t8 - t3
+ vqsub.s16 q5, q9, q15 @q5 = t8 = t1 - t7
+ vqadd.s16 q9, q9, q15 @q9 = t1 = t1 + t7
+
+ @3rd stage
+ vqadd.s16 q15, q13, q10 @q15 = t7 = t5 + t2
+ vqsub.s16 q10, q13, q10 @q10 = t2 = t5 - t2
+ vqadd.s16 q13, q8, q12 @q13 = t5 = t0 + t4
+ vqsub.s16 q7, q8, q12 @q7 = t0 = t0 - t4
+ vqsub.s16 q12, q5, q11 @q12 = t4 = t8 - t3
+ vqadd.s16 q11, q5, q11 @q11 = t3 = t8 + t3
+
+ @4th stage
+ vqadd.s16 q8, q15, q9 @q8 = vy0 = t7 + t1
+ vqsub.s16 q15, q15, q9 @q15 = vy7 = t7 - t1
+ vqrdmulh.s16 q6, q12, d0[0] @q6 = c4*t4
+ vqrdmulh.s16 q4, q11, d0[0] @q4 = c4*t3
+ vqsub.s16 q12, q10, q14 @q12 = vy4 = t2 - t6
+ vqadd.s16 q11, q10, q14 @q11 = vy3 = t2 + t6
+ vqadd.s16 q10, q7, q6 @q10 = vy2 = t0 + c4*t4
+ vqsub.s16 q14, q13, q4 @q14 = vy6 = t5 - c4*t3
+ vqadd.s16 q9, q13, q4 @q9 = vy1 = t5 + c4*t3
+ vqsub.s16 q13, q7, q6 @q13 = vy5 = t0 - c4*t4
+ .endm
+
+ .macro PART1
+ @==================================================================
+ @ Load input input data from memory and shift
+ @==================================================================
+ vld1.16 {d16, d17},[r0]! @q8 =row0
+ vqshl.s16 q8, q8, #4 @Input data too big?!!
+ @Maximum MPEG input is 2047/-2048.
+ vld1.16 {d18, d19},[r0]! @q9 =row1
+ vqshl.s16 q9, q9, #4 @Shift 1 instead of 4
+
+ vld1.16 {d20, d21},[r0]! @q10=row2
+ vqshl.s16 q10, q10, #4
+
+ vld1.16 {d22, d23},[r0]! @q11=row3
+ vqshl.s16 q11, q11, #4
+
+ vld1.16 {d24, d25},[r0]! @q12=row4
+ vqshl.s16 q12, q12, #4
+
+ vld1.16 {d26, d27},[r0]! @q13=row5
+ vqshl.s16 q13, q13, #4
+ vld1.16 {d28, d29},[r0]! @q14=row6
+ vqshl.s16 q14, q14, #4
+ vld1.16 {d30, d31},[r0]! @q15=row7
+ vqshl.s16 q15, q15, #4
+
+ @==================================================================
+ @ refresh the constants that was clobbered last time through IDCT1D
+ @==================================================================
+ vld1.16 {d4, d5},[r7] @q2 =constants[2]
+ vld1.16 {d6, d7},[r8] @q3 =constants[3]
+ vld1.16 {d8, d9},[r9] @q4 =constants[4]
+ .endm
+
+ .macro PART2
+ @==================================================================
+ @ Prescale the input
+ @==================================================================
+ vqrdmulh.s16 q12, q12, q1 @q12=row4 * constants[1] = vx4
+ vqrdmulh.s16 q15, q15, q2 @q15=row7 * constants[2] = vx7
+ vqrdmulh.s16 q9, q9, q2 @q9 =row1 * constants[2] = vx1
+ vqrdmulh.s16 q13, q13, q4 @q13=row5 * constants[4] = vx5
+ vqrdmulh.s16 q11, q11, q4 @q11=row3 * constants[4] = vx3
+ vqrdmulh.s16 q14, q14, q3 @q14=row6 * constants[3] = vx6
+ vqrdmulh.s16 q10, q10, q3 @q10=row2 * constants[3] = vx2
+ vqrdmulh.s16 q8, q8, q1 @q8 =row0 * constants[1] = vx0
+
+ @==================================================================
+ @ At thsi point, the input 8x8 x 16 bit coefficients are
+ @ transposed, prescaled, and loaded in q8 to q15
+ @ q0 loaded with scalar constants
+ @ Perform 1D IDCT
+ @==================================================================
+ IDCT1D @perform 1d idct
+
+ @==================================================================
+ @ Transpose the intermediate results to get read for vertical
+ @ transformation
+ @==================================================================
+ vswp d17, d24 @q8, q12
+ vswp d23, d30 @q11, q15
+ vswp d21, d28 @q10, q14
+ vswp d19, d26 @q9, q13
+
+ @==================================================================
+ @ Load the bias
+ @==================================================================
+ vdup.32 q4, d1[1] @a cycle is saved by loading
+ @the bias at this point
+
+ @==================================================================
+ @ Finish the transposition
+ @==================================================================
+ vtrn.32 q8, q10
+ vtrn.32 q9, q11
+ vtrn.32 q12, q14
+ vtrn.32 q13, q15
+ vtrn.16 q8, q9
+ vtrn.16 q10, q11
+ vtrn.16 q12, q13
+ vtrn.16 q14, q15
+
+ @==================================================================
+ @ Add bias
+ @==================================================================
+ vqadd.s16 q8, q8, q4
+
+ @==================================================================
+ @ IDCT 2nd half
+ @==================================================================
+ IDCT1D @perform 1d dct
+
+ @==================================================================
+ @ Scale and clamp the output to correct range and save to memory
+ @ 1. scale to 8bits by right shift 6
+ @ 2. clamp output to [0, 255] by min/max
+ @ 3. use multiple store. Each store will save one row of output.
+ @ The st queue size is 4, so do no more than 4 str in sequence.
+ @==================================================================
+ ldr r5, =constants+5*16 @constants[5],
+ vld1.16 d10, [r5] @load clamping parameters
+ vdup.s16 q6, d10[0] @q6=[0000000000000000]
+ vdup.s16 q7, d10[1] @q7=[FFFFFFFFFFFFFFFF]
+
+ @Save the results
+ vshr.s16 q8, q8, #6 @q8 = vy0
+ vmax.s16 q8, q8, q6 @clamp >0
+ vmin.s16 q8, q8, q7 @clamp <255
+
+ vshr.s16 q9, q9, #6 @q9 = vy1
+ vmax.s16 q9, q9, q6 @clamp >0
+ vmin.s16 q9, q9, q7 @clamp <255
+
+ vshr.s16 q10, q10, #6 @q10 = vy2
+ vmax.s16 q10, q10, q6 @clamp >0
+ vmin.s16 q10, q10, q7 @clamp <255
+
+ vshr.s16 q11, q11, #6 @q11 = vy3
+ vmax.s16 q11, q11, q6 @clamp >0
+ vmin.s16 q11, q11, q7 @clamp <255
+
+ vst1.16 {d16, d17},[r1],r2 @q8 =row0
+ vst1.16 {d18, d19},[r1],r2 @q9 =row1
+ vst1.16 {d20, d21},[r1],r2 @q10=row2
+ vst1.16 {d22, d23},[r1],r2 @q11=row3
+
+ vshr.s16 q12, q12, #6 @q12 = vy4
+ vmax.s16 q12, q12, q6 @clamp >0
+ vmin.s16 q12, q12, q7 @clamp <255
+
+ vshr.s16 q13, q13, #6 @q13 = vy5
+ vmax.s16 q13, q13, q6 @clamp >0
+ vmin.s16 q13, q13, q7 @clamp <255
+
+ vshr.s16 q14, q14, #6 @q14 = vy6
+ vmax.s16 q14, q14, q6 @clamp >0
+ vmin.s16 q14, q14, q7 @clamp <255
+
+ vshr.s16 q15, q15, #6 @q15 = vy7
+ vmax.s16 q15, q15, q6 @clamp >0
+ vmin.s16 q15, q15, q7 @clamp <255
+
+ vst1.16 {d24, d25},[r1],r2 @q12=row4
+ vst1.16 {d26, d27},[r1],r2 @q13=row5
+ vst1.16 {d28, d29},[r1],r2 @q14=row6
+ vst1.16 {d30, d31},[r1] @q15=row7
+ .endm
+
+ .macro BIG_BODY_TRANSPOSE_INPUT
+ @==================================================================
+ @ Main body of idct
+ @==================================================================
+ PART1
+ Transpose8x8
+ PART2
+ .endm
+
+ .macro IDCT_ENTRY
+ @==================================================================
+ @ Load the locations of the constants
+ @==================================================================
+ ldr r5, =constants+0*16 @constants[0]
+ ldr r6, =constants+1*16 @constants[1]
+ ldr r7, =constants+2*16 @constants[2]
+ ldr r8, =constants+3*16 @constants[3]
+ ldr r9, =constants+4*16 @constants[4]
+
+ @==================================================================
+ @ Load the coefficients
+ @ only some input coefficients are load due to register constrain
+ @==================================================================
+ vld1.16 {d0, d1},[r5] @q0 =constants[0] (scalars)
+ vld1.16 {d2, d3},[r6] @q1 =constants[1]
+ .endm
+@==========================================================================
+@ END of MACRO DEFINITION
+@==========================================================================
+
+
+ .section idct_func, "x" @ ARE
+ .text @ idct_func, CODE, READONLY
+ .align 2
+ .code 32 @ CODE32
+
+@==========================================================================
+@ Main Routine
+@==========================================================================
+
+ .global idct_1x1_venum
+ .global idct_2x2_venum
+ .global idct_4x4_venum
+ .global idct_8x8_venum
+
+@==========================================================================
+@ FUNCTION : idct_1x1_venum
+@--------------------------------------------------------------------------
+@ DISCRIPTION : ARM optimization of one 1x1 block iDCT
+@--------------------------------------------------------------------------
+@ C PROTOTYPE : void idct_1x1_venum(int16 * input,
+@ int16 * output,
+@ int32 stride)
+@--------------------------------------------------------------------------
+@ REG INPUT : R0 pointer to input (int16)
+@ R1 pointer to output (int16)
+@ R2 block stride
+@--------------------------------------------------------------------------
+@ STACK ARG : None
+@--------------------------------------------------------------------------
+@ MEM INPUT : None
+@--------------------------------------------------------------------------
+@ REG OUTPUT : None
+@--------------------------------------------------------------------------
+@ MEM OUTPUT : None
+@--------------------------------------------------------------------------
+@ REG AFFECTED : R0 - R2
+@--------------------------------------------------------------------------
+@ STACK USAGE : none
+@--------------------------------------------------------------------------
+@ CYCLES : 17 cycles
+@--------------------------------------------------------------------------
+@ NOTES :
+@ This idct_1x1_venum code was developed with ARM instruction set.
+@
+@ ARM REGISTER ALLOCATION
+@ =========================================================================
+@ r0 : pointer to input data
+@ r1 : pointer to output area
+@ r2 : stride in the output buffer
+@==========================================================================
+.type idct_1x1_venum, %function
+idct_1x1_venum:
+
+ ldrsh r3, [r0] @ Load signed half word (int16)
+ ldr r2, =1028 @ 1028 = 4 + 128 << 3
+ @ 4 for rounding, 128 for offset
+ add r2, r3, r2
+ asrs r2, r2, #3 @ Divide by 8, and set status bit
+ movmi r2, #0 @ Clamp to be greater than 0
+ cmp r2, #255
+ movgt r2, #255 @ Clamp to be less than 255
+ str r2, [r1] @ Save output
+ bx lr @ Return to caller
+
+ @ end of idct_1x1_venum
+
+
+@==========================================================================
+@ FUNCTION : idct_2x2_venum
+@--------------------------------------------------------------------------
+@ DISCRIPTION : VeNum optimization of one 2x2 block iDCT
+@--------------------------------------------------------------------------
+@ C PROTOTYPE : void idct_2x2_venum(int16 * input,
+@ int16 * output,
+@ int32 stride)
+@--------------------------------------------------------------------------
+@ REG INPUT : R0 pointer to input (int16)
+@ R1 pointer to output (int16)
+@ R2 block stride
+@--------------------------------------------------------------------------
+@ STACK ARG : None
+@--------------------------------------------------------------------------
+@ MEM INPUT : None
+@--------------------------------------------------------------------------
+@ REG OUTPUT : None
+@--------------------------------------------------------------------------
+@ MEM OUTPUT : None
+@--------------------------------------------------------------------------
+@ REG AFFECTED : R0 - R2
+@--------------------------------------------------------------------------
+@ STACK USAGE : none
+@--------------------------------------------------------------------------
+@ CYCLES : 27 cycles
+@--------------------------------------------------------------------------
+@ NOTES : Output buffer must be an 8x8 16-bit buffer
+@
+@ ARM REGISTER ALLOCATION
+@ ==========================================
+@ r0 : pointer to input data
+@ r1 : pointer to output area
+@ r2 : stride in the output buffer
+@ -------------------------------------------
+@
+@ VENUM REGISTER ALLOCATION
+@ =================================================
+@ q0 : output x0 - x4
+@ q1 : not used
+@ q2 : not used
+@ q3 : not used
+@ q4 : not used
+@ q5 : not used
+@ q6 : not used
+@ q7 : not used
+@ q8 : input y0 - y4
+@ q9 : intermediate value
+@ q10 : intermediate value
+@ q11 : offset value
+@ q12 : clamp value
+@ q13 : not used
+@ q14 : not used
+@ q15 : not used
+@==========================================================================
+.type idct_2x2_venum, %function
+idct_2x2_venum:
+
+ vld4.32 {d16, d17, d18, d19}, [r0]
+ @ d16: y0 | y1 | y2 | y3 (LSB | MSB)
+
+ vtrn.32 d16, d17 @ d16: y0 | y1 | X | X
+ @ d17: y2 | y3 | X | X
+
+ vqadd.s16 d18, d16, d17 @ d18: y0+y2 | y1+y3 | X | X q: saturated
+ vqsub.s16 d19, d16, d17 @ d19: y0-y2 | y1-y3 | X | X q: saturated
+
+ vtrn.16 d18, d19 @ d18: y0+y2 | y0-y2 | X | X
+ @ d19: y1+y3 | y1-y3 | X | X
+
+ vqadd.s16 d20, d18, d19 @ d20: (y0+y2)+(y1+y3) | (y0-y2)+(y1-y3)
+ @ x0 | x2 | X | X
+ vqsub.s16 d21, d18, d19 @ d21: (y0+y2)-(y1+y3) | (y0-y2)-(y1-y3)
+ @ x1 | x3 | X | X
+
+ vtrn.16 d20, d21 @ d20: x0 | x1 | X | X
+ @ d21: x2 | x3 | X | X
+
+ vrshr.s16 q10, q10, #3 @ Divide by 8
+
+ vmov.i16 q11, #128 @ q11 = 128|128|128|128|128|128|128|128
+ vqadd.s16 q0, q10, q11 @ Add offset to make output in [0,255]
+
+ vmov.i16 q12, #0 @ q12 = [0000000000000000]
+ vmov.i16 q13, #255 @ q13 = [FFFFFFFFFFFFFFFF] (hex)
+
+ vmax.s16 q0, q0, q12 @ Clamp > 0
+ vmin.s16 q0, q0, q13 @ Clamp < 255
+
+ vstr d0, [r1] @ Store x0 | x1 | X | X
+ @ Potential out of boundary issue
+ add r1, r1, r2 @ Add the offset to the output pointer
+ vstr d1, [r1] @ Store x2 | x3 | X | X
+ @ Potential out of boundary issue
+ bx lr @ Return to caller
+
+ @ end of idct_2x2_venum
+
+
+@==========================================================================
+@ FUNCTION : idct_4x4_venum
+@--------------------------------------------------------------------------
+@ DISCRIPTION : VeNum optimization of one 4x4 block iDCT
+@--------------------------------------------------------------------------
+@ C PROTOTYPE : void idct_4x4_venum(int16 * input,
+@ int16 * output,
+@ int32 stride)
+@--------------------------------------------------------------------------
+@ REG INPUT : R0 pointer to input (int16)
+@ R1 pointer to output (int16)
+@ R2 block stride
+@--------------------------------------------------------------------------
+@ STACK ARG : None
+@--------------------------------------------------------------------------
+@ MEM INPUT : None
+@--------------------------------------------------------------------------
+@ REG OUTPUT : None
+@--------------------------------------------------------------------------
+@ MEM OUTPUT : None
+@--------------------------------------------------------------------------
+@ REG AFFECTED : R0 - R3, R12
+@--------------------------------------------------------------------------
+@ STACK USAGE : none
+@--------------------------------------------------------------------------
+@ CYCLES : 56 cycles
+@--------------------------------------------------------------------------
+@ NOTES :
+@
+@ ARM REGISTER ALLOCATION
+@ ==========================================
+@ r0 : pointer to input data
+@ r1 : pointer to output area
+@ r2 : stride in the output buffer
+@ r3 : pointer to the coefficient set
+@ r12 : pointer to the coefficient set
+@ -------------------------------------------
+@
+@ VENUM REGISTER ALLOCATION
+@ =================================================
+@ q0 : coefficients[0]
+@ q1 : coefficients[1]
+@ q2 : coefficients[2]
+@ q3 : coefficients[3]
+@ q4 : not used
+@ q5 : not used
+@ q6 : not used
+@ q7 : not used
+@ q8 : input y0 - y7
+@ q9 : input y8 - y15
+@ q10 : intermediate value
+@ q11 : intermediate value
+@ q12 : intermediate value
+@ q13 : intermediate value
+@ q14 : intermediate value
+@ q15 : intermediate value
+@==========================================================================
+.type idct_4x4_venum, %function
+idct_4x4_venum:
+
+ @ Load the locations of the first 2 sets of coefficients
+ ldr r3, =coefficient+0*16 @ coefficient[0]
+ ldr r12, =coefficient+1*16 @ coefficient[1]
+
+ @ Load the first 2 sets of coefficients
+ vld1.16 {d0, d1},[r3] @ q0 = C4 | C2 | C4 | C6 | C4 | C2 | C4 | C6
+ vld1.16 {d2, d3},[r12] @ q1 = C4 | C6 | C4 | C2 | C4 | C6 | C4 | C2
+
+ @ Load the locations of the second 2 sets of coefficients
+ ldr r3, =coefficient+2*16 @ coefficient[2]
+ ldr r12, =coefficient+3*16 @ coefficient[3]
+
+ @ Load the second 2 sets of coefficients
+ vld1.16 {d4, d5},[r3] @ q2 = C4 | C4 | C4 | C4 | C2 | C2 | C2 | C2
+ vld1.16 {d6, d7},[r12] @ q3 = C4 | C4 | C4 | C4 | C6 | C6 | C6 | C6
+
+ @ Load the input values
+ vld1.16 {d16}, [r0], r2 @ d16: y0 | y1 | y2 | y3 (LSB | MSB)
+ vld1.16 {d17}, [r0], r2 @ d17: y4 | y5 | y6 | y7 (LSB | MSB)
+ vld1.16 {d18}, [r0], r2 @ d18: y8 | y9 | y10 | y11 (LSB | MSB)
+ vld1.16 {d19}, [r0], r2 @ d19: y12 | y13 | y14 | y15 (LSB | MSB)
+
+ @ Apply iDCT Horizonally
+
+ @ q8: y0 |y1 |y2 |y3 |y4 |y5 |y6 |y7
+ @ q9: y8 |y9 |y10|y11|y12|y13|y14|y15
+
+ @======================================================================
+ @ vqrdmulh doubles the result and save the high 16 bits of the result,
+ @ this is equivalent to right shift by 15 bits.
+ @ since coefficients are in Q15 format, it contradicts with the right
+ @ shift 15 here, so the final result is in Q0 format
+ @
+ @ vqrdmulh will also round the result
+ @======================================================================
+
+ vqrdmulh.s16 q10, q8, q0 @ q10: C4*y0 | C2*y1 | C4*y2 | C6*y3 | C4*y4 | C2*y5 | C4*y6 | C6*y7
+ vqrdmulh.s16 q11, q8, q1 @ q11: C4*y0 | C6*y1 | C4*y2 | C2*y3 | C4*y4 | C6*y5 | C4*y6 | C2*y7
+
+ vqrdmulh.s16 q12, q9, q0 @ q12: C4*y8 | C2*y9 | C4*y10 | C6*y11 | C4*y12 | C2*y13 | C4*y14 | C6*y15
+ vqrdmulh.s16 q13, q9, q1 @ q13: C4*y8 | C6*y9 | C4*y10 | C2*y11 | C4*y12 | C6*y13 | C4*y14 | C2*y15
+
+ vtrn.32 q10, q12 @ q10: C4*y0 | C2*y1 | C4*y8 | C2*y9 | C4*y4 | C2*y5 | C4*y12 | C2*y13
+ @ q12: C4*y2 | C6*y3 | C4*y10 | C6*y11 | C4*y6 | C6*y7 | C4*y14 | C6*y15
+
+ vtrn.32 q11, q13 @ q11: C4*y0 | C6*y1 | C4*y8 | C6*y9 | C4*y4 | C6*y5 | C4*y12 | C6*y13
+ @ q13: C4*y2 | C2*y3 | C4*y10 | C2*y11 | C4*y6 | C2*y7 | C4*y14 | C2*y15
+
+ vqadd.s16 q14, q10, q12 @ q14: C4*y0 + C4*y2 | C2*y1 + C6*y3 | C4*y8 + C4*y10 | C2*y9 + C6*y11 | C4*y4 + C4*y6 | C2*y5 + C6*y7 | C4*y12 + C4*y14 | C2*y13 + C6*y15
+ @ S0 | S2 | S8 | S10 | S4 | S6 | S12 | S14
+
+ vqsub.s16 q15, q11, q13 @ q15: C4*y0 - C4*y2 | C6*y1 - C2*y3 | C4*y8 - C4*y10 | C6*y9 - C2*y11 | C4*y4 - C4*y6 | C6*y5 - C2*y7 | C4*y12 - C4*y14 | C6*y13 - C2*y15
+ @ S1 | S3 | S9 | S11 | S5 | S7 | S13 | S15
+
+ vtrn.16 q14, q15 @ q14: S0 | S1 | S8 | S9 | S4 | S5 | S12 | S13
+ @ q15: S2 | S3 | S10 | S11 | S6 | S7 | S14 | S15
+
+ vqadd.s16 q8, q14, q15 @ q8: Z0 | Z1 | Z8 | Z9 | Z4 | Z5 | Z12 | Z13
+ vqsub.s16 q9, q14, q15 @ q9: Z3 | Z2 | Z11 | Z10 | Z7 | Z6 | Z15 | Z14
+ vrev32.16 q9, q9 @ q9: Z2 | Z3 | Z10 | Z11 | Z6 | Z7 | Z14 | Z15
+
+
+ @ Apply iDCT Vertically
+
+ vtrn.32 q8, q9 @ q8: Z0 | Z1 | Z2 | Z3 | Z4 | Z5 | Z6 | Z7
+ @ q9: Z8 | Z9 | Z10 | Z11 | Z12 | Z13 | Z14 | Z15
+
+
+ vqrdmulh.s16 q10, q8, q2 @ q10: C4*Z0 | C4*Z1 | C4*Z2 | C4*Z3 | C2*Z4 | C2*Z5 | C2*Z6 | C2*Z7
+ vqrdmulh.s16 q11, q8, q3 @ q11: C4*Z0 | C4*Z1 | C4*Z2 | C4*Z3 | C6*Z4 | C6*Z5 | C6*Z6 | C6*Z7
+
+ vqrdmulh.s16 q12, q9, q2 @ q12: C4*Z8 | C4*Z9 | C4*Z10 | C4*Z11 | C2*Z12 | C2*Z13 | C2*Z14 | C2*Z15
+ vqrdmulh.s16 q13, q9, q3 @ q13: C4*Z8 | C4*Z9 | C4*Z10 | C4*Z11 | C6*Z12 | C6*Z13 | C6*Z14 | C6*Z15
+
+ vqadd.s16 q14, q10, q13 @ q14: C4*Z0+C4*Z8 | C4*Z1+C4*Z9 | C4*Z2+C4*Z10 | C4*Z3+C4*Z11 | C2*Z4+C6*Z12 | C2*Z5+C6*Z13 | C2*Z6+C6*Z14 | C2*Z7+C6*Z15
+ @ s0 | s4 | s8 | s12 | s2 | s6 | s10 | s14
+
+ vqsub.s16 q15, q11, q12 @ q15: C4*Z0-C4*Z8 | C4*Z1-C4*Z9 | C4*Z2-C4*Z10 | C4*Z3-C4*Z11 | C6*Z4-C2*Z12 | C6*Z5-C2*Z13 | C6*Z6-C2*Z14 | C6*Z7-C2*Z15
+ @ s1 | s5 | s9 | s13 | s3 | s7 | s11 | s15
+
+ vswp d29, d30 @ q14: s0 | s4 | s8 | s12 | s1 | s5 | s9 | s13
+ @ q15: s2 | s6 | s10 | s14 | s3 | s7 | s11 | s15
+
+ vqadd.s16 q8, q14, q15 @ q8: x0 | x4 | x8 | x12 | x1 | x5 | x9 | x13
+ vqsub.s16 q9, q14, q15 @ q9: x3 | x7 | x11 | x15 | x2 | x6 | x10 | x14
+
+ vmov.i16 q10, #0 @ q10=[0000000000000000]
+ vmov.i16 q11, #255 @ q11=[FFFFFFFFFFFFFFFF] (hex)
+
+ vmov.i16 q0, #128 @ q0 = 128|128|128|128|128|128|128|128
+
+ vqadd.s16 q8, q8, q0 @ Add the offset
+ vqadd.s16 q9, q9, q0 @ Add the offset
+
+ vmax.s16 q8, q8, q10 @ clamp > 0
+ vmin.s16 q8, q8, q11 @ clamp < 255
+
+ vmax.s16 q9, q9, q10 @ clamp > 0
+ vmin.s16 q9, q9, q11 @ clamp < 255
+
+ vst1.16 {d16}, [r1], r2 @ d16: x0 | x1 | x2 | x3 (LSB | MSB)
+ vst1.16 {d17}, [r1], r2 @ d17: x4 | x5 | x6 | x7 (LSB | MSB)
+ vst1.16 {d19}, [r1], r2 @ d18: x8 | x9 | x10 | x11 (LSB | MSB)
+ vst1.16 {d18}, [r1], r2 @ d19: x12| x13 | x14 | x15 (LSB | MSB)
+
+ bx lr @ Return to caller
+
+ @ end of idct_4x4_venum
+
+@==========================================================================
+@ FUNCTION : idct_8x8_venum
+@--------------------------------------------------------------------------
+@ DISCRIPTION : VeNum optimization of one 8x8 block iDCT
+@--------------------------------------------------------------------------
+@ C PROTOTYPE : void idct_8x8_venum(int16 * input,
+@ int16 * output,
+@ int32 stride)
+@--------------------------------------------------------------------------
+@ REG INPUT : R0 pointer to input (int16)
+@ R1 pointer to output (int16)
+@ R2 block stride
+@--------------------------------------------------------------------------
+@ STACK ARG : None
+@--------------------------------------------------------------------------
+@ MEM INPUT : None
+@--------------------------------------------------------------------------
+@ REG OUTPUT : None
+@--------------------------------------------------------------------------
+@ MEM OUTPUT : None
+@--------------------------------------------------------------------------
+@ REG AFFECTED : R0 - R9
+@--------------------------------------------------------------------------
+@ STACK USAGE : none
+@--------------------------------------------------------------------------
+@ CYCLES : 177 cycles
+@--------------------------------------------------------------------------
+@ NOTES :
+@
+@ It was tested to be IEEE 1180 compliant. Since IEEE 1180 compliance is more stringent
+@ than MPEG-4 compliance, this version is also MPEG-4 compliant.
+@
+@ CODE STRUCTURE:
+@ (i) Macros for transposing an 8x8 matrix and for configuring the VFP unit are defined.
+@ (ii) Macro for IDCT in one dimension is defined as four stages
+@ (iii) The two dimensional code begins
+@ (iv) constants are defined in the area DataArea
+@
+@ PROGRAM FLOW:
+@
+@ The VFP is configured
+@ The parameters to IDCT are loaded
+@ the coefficients are loaded
+@ loop:
+@ decrement loop counter
+@ The first input Matrix is loaded and pre-scaled
+@ The input is prescaled using the constants
+@ IDCT is performed in one dimension on the 8 columns
+@ The matrix is transposed
+@ A bias is loaded an added to the matrix
+@ IDCT is performed in one dimension on the 8 rows
+@ The matrix is post-scaled
+@ The matrix is saved
+@ test loop counter and loop if greater than zero
+@ stop
+@
+@
+@ ARM REGISTER ALLOCATION
+@ ==========================================
+@ r0 : pointer to input data
+@ r1 : pointer to output are
+@ r2 : stride in the output buffer
+@ r3 :
+@ r4 :
+@ r5 : pointer to constants[0] [5]
+@ r6 : pointer to constants[1]
+@ r7 : pointer to constants[2]
+@ r8 : pointer to constants[3]
+@ r9 : pointer to constants[4]
+@ -------------------------------------------
+@
+@ VENUM REGISTER ALLOCATION
+@ =================================================
+@ q0 : constants[0]
+@ q1 : constants[1]
+@ q2 : constants[2], IDCT1D in-place scratch
+@ q3 : constants[3], IDCT1D in-place scratch
+@ q4 : constants[4], IDCT1D in-place scratch, and bias compensation
+@ q5 : IDCT1D in-place scratch
+@ q6 : IDCT1D in-place scratch
+@ q7 : IDCT1D in-place scratch
+@ q8 : Matrix[0] IDCT1D in-place scratch
+@ q9 : Matrix[1] IDCT1D in-place scratch
+@ q10 : Matrix[2] IDCT1D in-place scratch
+@ q11 : Matrix[3] IDCT1D in-place scratch
+@ q12 : Matrix[4] IDCT1D in-place scratch
+@ q13 : Matrix[5] IDCT1D in-place scratch
+@ q14 : Matrix[6] IDCT1D in-place scratch
+@ q15 : Matrix[7] IDCT1D in-place scratch
+@==========================================================================
+.type idct_8x8_venum, %function
+idct_8x8_venum:
+
+ push {r5-r9}
+ vpush {d8-d15}
+ IDCT_ENTRY
+ BIG_BODY_TRANSPOSE_INPUT
+ vpop {d8-d15}
+ pop {r5-r9}
+ bx lr
+ @ end of idct_8x8_venum
+
+@==========================================================================
+@ Constants Definition AREA: define idct kernel, bias
+@==========================================================================
+ .section ro_data_area @ AREA RODataArea
+ .data @ DATA, READONLY
+ .align 5 @ ALIGN=5
+
+constants:
+ .hword 23170, 13573, 6518, 21895, -23170, -21895, 8223, 8224
+ .hword 16384, 22725, 21407, 19266, 16384, 19266, 21407, 22725
+ .hword 22725, 31521, 29692, 26722, 22725, 26722, 29692, 31521
+ .hword 21407, 29692, 27969, 25172, 21407, 25172, 27969, 29692
+ .hword 19266, 26722, 25172, 22654, 19266, 22654, 25172, 26722
+ .hword 0, 255, 0, 0
+
+coefficient: @ These are the coefficent used by 4x4 iDCT in Q15 format
+ .hword 11585, 15137, 11585, 6270, 11585, 15137, 11585, 6270 @ C4, C2, C4, C6, C4, C2, C4, C6 /2
+ .hword 11585, 6270, 11585, 15137, 11585, 6270, 11585, 15137 @ C4, C6, C4, C2, C4, C6, C4, C2 /2
+ .hword 11585, 11585, 11585, 11585, 15137, 15137, 15137, 15137 @ C4, C4, C4, C4, C2, C2, C2, C2 /2
+ .hword 11585, 11585, 11585, 11585, 6270, 6270, 6270, 6270 @ C4, C4, C4, C4, C6, C6, C6, C6 /2
+
+.end